“The strong link between lens yellowing and age could help explain why sleep disorders become more frequent with increasing age,” said Line Kessel, M.D., Ph.D., the study’s lead author.
In the Danish study, 970 volunteers had their eyes examined by lens autofluorometry, a non-invasive method for determining how much blue light is transmitted into the retina. Blue light is a portion of the visible-light spectrum that influences the normal sleep cycle by helping initiate the release of melatonin in the brain. Melatonin is a hormone that helps signal to the body when it is time to be sleepy or alert.
Volunteers were considered to have a sleep disorder if they confirmed that they “often suffer from insomnia” or if they purchased prescription sleeping pills within the last 12 months. Of those classified as having a sleep disturbance, 82.8 percent affirmed that they both suffered from insomnia and used sleep medication.
Using this data, researchers calculated an inverse relationship between blue light transmission and the risk of having sleep disturbances: the lower the blue light transmission into the retina due to a yellowing of the eye lens, the greater the risk of sleep disturbances.
“The results showed that while age-related lens yellowing is of relatively little importance for visual function, it may be responsible for insomnia in the elderly,” said Kessel, a senior scientist in the Department of Opthalmology at Glostrup Hospital in Denmark.
Significantly higher rates of sleep disorders were reported by older participants, women, smokers and those with diabetes mellitus. Previous studies have shown that the rate of lens aging is accelerated in smokers, patients with diabetes mellitus and those at high risk for ischemic heart diseases. The Danish researchers addressed these factors in their statistical analyses.
“The association between blue light lens transmission and sleep disturbances remained significant even after we corrected for age, sex, diabetes mellitus, smoking and the risk of ischemic heart disease,” Kessel said.
She said another important factor to consider is that sleep quality has been shown to improve after cataract surgery. “The transmission of blue light currently cannot be improved by any other method than cataract surgery. I´m involved with another research project where we try non-invasively to remove the yellow color of the lens using a laser, but the method is not yet developed for clinical use,” Kessel said.
In the meantime, Kessel said it seemed prudent to recommend that physicians reconsider the prescription of sleeping tablets in patients who have undergone cataract surgery.
This study was sponsored, in part, by The Danish Pharmaceutical Association and the healthcare company Novo Nordisk, which specializes in diabetes care.
Read more about sleep and older adults from the American Academy of Sleep Medicine on the Sleep Education Blog at http://sleepeducation.blogspot.com/search/label/older%20adults.
The peer-reviewed Journal of Clinical Sleep Medicine (www.aasmnet.org/jcsm) is published bimonthly and is the official publication of the American Academy of Sleep Medicine, a professional membership society that is the leader in setting standards and promoting excellence in sleep medicine health care, education and research.
For a copy of the study, “Sleep disturbances are related to decreased transmission of blue light to the retina caused by lens yellowing,” or to arrange an interview with an AASM spokesperson, please contact PR Coordinator Doug Dusik at 630-737-9700, ext. 9345, or firstname.lastname@example.org.
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